HS2060UH48L 6000 watt pure sine wave 48v split phase inverter

GRANKIA HS2060UH48L 6000 watt pure sine wave 48v split phase inverter work for demanding off-grid, hybrid solar, backup power, and whole-home energy systems.

The 6000 watt split phase inverter 48v is engineered for reliability and versatility. It delivers clean, stable AC power. The power closely mimics utility-grade electricity. This makes it ideal for sensitive electronics and heavy-duty appliances.

This split phase solar inverter can comfortably handle high-startup loads. These include well pumps, air conditioners, refrigerators, and microwaves. It also powers tools and multiple household appliances simultaneously.

 

48V Split Phase Inverter Key Features

True Pure Sine Wave Output

Provides smooth, clean power with very low total harmonic distortion, safe for sensitive devices like computers, medical equipment, TVs, audio systems, and variable-speed motors.

Split-Phase Output (120/240V)

Outputs both 120V and 240V AC (split-phase 120/240V), perfectly suited for North American and similar electrical standards. Supports standard 120V single-phase loads and 240V appliances (dryers, ovens, EV chargers, large pumps) from a single unit.

Hybrid Functionality

• Built-in AC battery charger 80A for grid/generator charging.

• AC auto-transfer switch — Seamlessly switches between inverter power, grid power, or generator input (UPS-level transfer time).

• Built-in MPPT solar charge controller compatibility for direct solar integration in hybrid setups.

User Interface & Monitoring

Large LCD display showing real-time status (input/output voltage, load level, battery capacity, charging mode, faults).

Battery-Free Operation with PV + Grid Combined Supply

• Hybrid Functionality: Operates seamlessly without batteries when both solar and grid power are available.
• Continuous Power Supply: Ensures a stable power supply for continuous operation, maximizing the use of available resources.

Independent Generator Interface

The inverter supports an independent generator interface, allowing it to work with external generators.

Technical Specifications (Representative)

• Model: HS2060UH48L,
• Rated power: 6000W,
• AC Input: 120Vac – 240Vac,
• AC Output: 120Vac / 240Vac,
• Frequency: 50/60 Hz (auto-sensing or selectable),
• DC Input: 48VDC,
• PV Input: 90-450VDC,
• Transfer time: <10 ms,
• MPPT Efficiency: ≥98%,
• Max. Charging Current: 120A
• Battery type: VRLA/AGM/LiFePO4,
• Wave Form: Pure Sine Wave,
• Communications: RS485/CAN, Optional Wi-Fi/GPRS,
• Dimension: 350x133x540.

Hybrid Split Phase Inverter Diagram

No.	Parts	Description
1	Solar Inverter	Split-phase solar inverter.
2	Battery Bank	Select the appropriate battery model according to the inverter–battery compatibility list.
3	PV String	A PV string consists of multiple photovoltaic modules connected in series.
4	Battery Breaker	Users should prepare a 2P DC circuit breaker.
5	AC Breaker	The AC breaker specifications for the LOAD and GRID must be the same for a given inverter model. The AC breaker should be provided by the end user.
6	SPDT Switch	To ensure the load can be powered by the grid during inverter maintenance, install an SPDT switch.
7	Generator	The generator’s maximum output power must be equal to or greater than the inverter’s rated power.

 

Product Details

1.LED Indicator	2.LCD Display	3.AC Input Breaker	4.Label
5.PV Input Switch	6.Ground(PE)	7.Power On/Off	8.WiFi/GPRS (Option)
9.AC Input Terminal	10.Second Output / Generator Input Terminal	11.Main Output Terminal	12.COM Communication Port
13.BMS Communication Port	14.Dry Contact	15.Battery Terminal	16.PV Input Terminal (PV1/PV2)

Split Phase Inverter Working Modes

1. Daytime – Solar Power Surplus

• The solar panels generate enough energy to supply all household loads.

• Priority of energy flow:

  1. Home loads are powered first (appliances, lighting, etc.).

  2. Batteries are charged with excess solar power.

  3. Remaining energy is exported to the grid (feed-in).

• This maximizes self-consumption and allows selling extra electricity to the utility grid.

2. Daytime – Solar Power Insufficient

• Solar energy is available but not enough to cover all loads.

• Priority of energy flow:

  1. Solar power supplies loads first.

  2. Batteries discharge to support the loads.

  3. If still insufficient, power is imported from the grid.

• This reduces grid dependency while keeping loads running continuously.

3. Nighttime – No Solar Production

• Solar panels stop producing energy.

• Priority of energy flow:

  1. Batteries discharge to power household loads.

  2. If battery power is not enough, the grid supplies the loads.

• This ensures uninterrupted power supply even at night.

Ideal Applications

• Off-grid solar homes and cabins — Powers an entire small-to-medium household independently.
• Hybrid solar + grid systems — Combines solar, battery storage, and utility/generator backup.
• RV, marine, truck camper, or mobile power setups requiring 120/240V capability.
• Emergency backup power — Ideal for critical loads during outages (with generator input support).
• Workshops, farms, small businesses — Runs heavy tools, pumps, welders, compressors, and HVAC equipment.

Installation Instructions

1. Choose Location

Mount vertically on a sturdy, non-combustible wall in a cool, dry, dust-free indoor space. Avoid direct sunlight, heat sources, or flammable materials. Ensure ventilation for the fan-cooled unit.

2. Mount the Inverter

Use the built-in brackets or mounting holes. Secure firmly (it’s heavy—get help lifting). Follow any included template or diagram.

3.DC Battery Connection (Critical – Do First)

• Connect negative (-) battery cable first, then positive (+).
• Use appropriately sized cables with proper fusing close to the battery positive terminal.
• Tighten terminals securely (torque per manual, usually 10–15 Nm).
• Double-check polarity: Red = positive, Black = negative.
• Ground the inverter chassis if specified (connect to system ground or grounding rod).

4.AC Input/Output Wiring

• AC Input (grid or generator): Connect to the “AC IN” terminals (L1, L2, N, Ground). Use appropriate breakers upstream.
• AC Output: Connect to loads or sub-panel (L1, L2, N, Ground) for split-phase 120/240V.
  • L1 & L2 provide 240V; L1-N or L2-N provide 120V.
• Install breakers on output for safety (e.g., 30–50A per leg, depending on loads).
• If wiring to whole house: Use a critical loads sub-panel or transfer switch.

5. Solar Input

Follow manual for PV input terminals.

6. Final Checks & Power-Up

• Verify all connections are tight and insulated.
• Turn on battery DC breaker/fuse first.
• Power on the inverter (use front panel switch or remote if included).
• Check LCD display for normal status (battery voltage, no faults).
• Test with small loads first, then gradually increase.
• Monitor for overheating, unusual noise, or error codes.

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